A helicopter auxilary anti-torque system for efficiently supplying thrust and control at the tail of a helicopter during failure of the helicopter tail rotor. The helicopter auxilary anti-torque system generally includes a fluid thrust assembly selectively engageable onboard the helicopter, an auxil
A helicopter auxilary anti-torque system for efficiently supplying thrust and control at the tail of a helicopter during failure of the helicopter tail rotor. The helicopter auxilary anti-torque system generally includes a fluid thrust assembly selectively engageable onboard the helicopter, an auxiliary tail rotor selectively engageable onboard the helicopter, and at least one controller to operate the fluid thrust assembly and the auxiliary tail rotor to effect a controlled anti-torque force of the tail boom during failure of the conventional helicopter tail rotor. The fluid thrust assembly projects a non flammable fluid from the tail boom of the helicopter. The auxiliary tail rotor is collapsible within the tail boom of the helicopter when not in use. The fluid thrust assembly and the auxiliary tail rotor may be automatically activated in the case of the primary tail rotor failure, or activated by the pilot of the helicopter via one or more switches.
대표청구항▼
1. A helicopter auxiliary anti-torque system, comprising: a helicopter including a fuselage and a tail boom extending from said fuselage;wherein said helicopter includes a main rotor extending from said fuselage and a primary tail rotor directed out either side of said tail boom;a fluid thrust assem
1. A helicopter auxiliary anti-torque system, comprising: a helicopter including a fuselage and a tail boom extending from said fuselage;wherein said helicopter includes a main rotor extending from said fuselage and a primary tail rotor directed out either side of said tail boom;a fluid thrust assembly selectively engageable onboard said helicopter;wherein said fluid thrust assembly includes a reservoir and a nozzle fluidly connected to said reservoir and wherein said nozzle is directed out said either side of said tail boom;an auxiliary tail rotor selectively engageable onboard said helicopter;wherein said auxiliary tail rotor is directed out said either side of said tail boom; andat least one controller to operate said fluid thrust assembly and said auxiliary tail rotor to effect an anti-torque force of said tail boom during failure of said primary tail rotor. 2. The helicopter auxiliary anti-torque system of claim 1, wherein said fluid thrust assembly projects a non flammable fluid. 3. The helicopter auxiliary anti-torque system of claim 2, wherein said non flammable fluid is comprised of pressurized water. 4. The helicopter auxiliary anti-torque system of claim 1, wherein said nozzle is directed out of said tail boom similar to said primary rotor to expend a force in a same direction as said primary rotor. 5. The helicopter auxiliary anti-torque system of claim 1, wherein at least a portion of said auxiliary tail rotor is collapsed within said tail boom in a first position and wherein said at least a portion of said auxiliary tail rotor is expanded externally of said tail boom in a second position. 6. The helicopter auxiliary anti-torque system of claim 5, wherein said auxiliary tail rotor includes a threaded shaft and a plurality of blades. 7. The helicopter auxiliary anti-torque system of claim 6, wherein said plurality of blades threadably move along said threaded shaft when changing from said first position to said second position. 8. The helicopter auxiliary anti-torque system of claim 7, wherein said tail boom includes a pocket, wherein said plurality of blades are positioned within said pocket in said first position. 9. The helicopter auxiliary anti-torque system of claim 5, wherein said auxiliary tail rotor includes a plurality of blades, wherein said plurality of blades expand telescopically. 10. The helicopter auxiliary anti-torque system of claim 1, wherein said auxiliary tail rotor is directed out an opposite side of said tail boom as said primary tail rotor. 11. The helicopter auxiliary anti-torque system of claim 1, including a bypass assembly to mechanically disconnect said primary tail rotor from an engine of said helicopter and mechanically connect said auxiliary tail rotor to said engine of said helicopter. 12. The helicopter auxiliary anti-torque system of claim 1, wherein said at least one controller automatically engages said fluid thrust assembly prior to said auxiliary tail rotor. 13. A helicopter auxiliary anti-torque system, comprising: a helicopter including a fuselage and a tail boom extending from said fuselage;wherein said helicopter includes a main rotor extending from said fuselage and a primary tail rotor directed out a first side of said tail boom;a fluid thrust assembly selectively engageable onboard said helicopter;wherein said fluid thrust assembly includes a reservoir and a nozzle fluidly connected to said reservoir and wherein said nozzle is directed out a second side of said tail boom;wherein said fluid thrust assembly projects a non flammable fluid;an auxiliary tail rotor selectively engageable onboard said helicopter;wherein at least a portion of said auxiliary tail rotor is collapsed internal said tail boom in a first position and wherein said at least a portion of said auxiliary tail rotor is expanded external said tail boom in a second position;wherein said auxiliary tail rotor is directed out said second side of said tail boom; andat least one controller to operate said fluid thrust assembly and said auxiliary tail rotor to effect an anti-torque force of said tail boom during failure of said primary tail rotor. 14. The helicopter auxiliary anti-torque system of claim 13, wherein said auxiliary tail rotor includes a threaded shaft and a plurality of blades. 15. The helicopter auxiliary anti-torque system of claim 14, wherein said plurality of blades threadably move along said threaded shaft when changing from said first position to said second position. 16. The helicopter auxiliary anti-torque system of claim 15, wherein said tail boom includes a pocket, wherein said plurality of blades are positioned within said pocket in said first position. 17. The helicopter auxiliary anti-torque system of claim 13, wherein said auxiliary tail rotor includes a plurality of blades, wherein said plurality of blades expand telescopically via centrifugal force. 18. The helicopter auxiliary anti-torque system of claim 13, including a bypass assembly to mechanically disconnect said primary tail rotor from an engine of said helicopter and mechanically connect said auxiliary tail rotor to said engine of said helicopter. 19. The helicopter auxiliary anti-torque system of claim 13, wherein said at least one controller automatically engages said fluid thrust assembly prior to said auxiliary tail rotor. 20. A helicopter auxiliary anti-torque system, comprising: a helicopter including a fuselage and a tail boom extending from said fuselage;wherein said helicopter includes a main rotor extending from said fuselage and a primary tail rotor directed out a first side of said tail boom;wherein said helicopter includes at least one engine to power said main rotor and said primary tail rotor;wherein said helicopter includes a shaft connecting said engine to said primary tail rotor;wherein said shaft includes a first portion and a second portion, wherein said first portion is separable from said second portion and wherein said first portion and said second portion each include a radial spline structure for rotatably coupling;a fluid thrust assembly selectively engageable onboard said helicopter;wherein said fluid thrust assembly includes a reservoir and a nozzle fluidly connected to said reservoir and wherein said nozzle is directed out a second side of said tail boom;wherein said fluid thrust assembly projects a non flammable fluid;an auxiliary tail rotor selectively engageable onboard said helicopter;wherein at least a portion of said auxiliary tail rotor is collapsed internal said tail boom in a first position and wherein said at least a portion of said auxiliary tail rotor is expanded external said tail boom in a second position;wherein said auxiliary tail rotor includes a threaded shaft and a plurality of blades;wherein said plurality of blades threadably move along said threaded shaft when changing from said first position to said second position;wherein said tail boom includes a pocket, wherein said plurality of blades are positioned within said pocket in said first position;wherein said plurality of blades expand telescopically;wherein said auxiliary tail rotor is directed out said second side of said tail boom;a bypass assembly to mechanically disconnect said primary tail rotor from an engine of said helicopter and mechanically connect said auxiliary tail rotor to said engine of said helicopter;wherein said bypass assembly is located along said shaft adjacent a separation point of said first portion and said second portion;wherein said bypass assembly includes a pair of primary gears, wherein said pair of primary gears are rotated when said first portion is rotatably coupled to said second portion;wherein said bypass assembly includes a pair of auxiliary gears, wherein said pair of auxiliary gears are rotated when said first portion is disconnected from said second portion;wherein said bypass assembly includes a shift lever to disconnect and connect said first portion and said second portion of said shaft;wherein said bypass assembly includes a locking arm to secure said shift lever in place;wherein said bypass assembly has an electromagnet energized by said controller to unlock said shift lever;wherein said bypass assembly includes a first motor to operate said shift lever;wherein said bypass assembly includes a hydraulic pump mechanically connected to said auxiliary gears and operable when said first portion is disconnected from said second portion;wherein said auxiliary tail rotor is operable via rotation of said first portion of said shaft; andat least one controller to operate said fluid thrust assembly and said auxiliary tail rotor to effect an anti-torque force of said tail boom during failure of said primary tail rotor;wherein said at least one controller automatically engages said fluid thrust assembly prior to said auxiliary tail rotor.
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Allongue Marc (Marseille FRX), Anti-torque system for helicopters.
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